A formalism for nemato-elasticity enforces Saint Venant compatibility via a helical basis, yielding direction-selective criticality and defect-induced random fields as universal features of crystalline systems.
Nattermann, Instabilities in Ising systems with short- and long-range-correlated quenched random fields, Journal of Physics C: Solid State Physics 16, 6407 (1983)
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Elastic compatibility constraints bifurcate nematic fluctuations into critical compatible and gapped incompatible sectors, yielding universal direction-selective nematic criticality protected from microscopic defect strains.
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Theory of Electronic Nematic Criticality Constrained by Elastic Compatibility
A formalism for nemato-elasticity enforces Saint Venant compatibility via a helical basis, yielding direction-selective criticality and defect-induced random fields as universal features of crystalline systems.
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Compatible Instability: Gauge Constraints of Elasticity Inherited by Electronic Nematic Criticality
Elastic compatibility constraints bifurcate nematic fluctuations into critical compatible and gapped incompatible sectors, yielding universal direction-selective nematic criticality protected from microscopic defect strains.